Compact container having improved opening/closing structure for different cosmetic materials

ABSTRACT

The present invention includes a compact container having an improved opening/closing structure for different cosmetic materials, the compact container comprising: a container body; a content container which is coupled inside the container body and is to be filled with a first content; a rotation dish coupling member coupled to the lower part of the container body; a rotation dish which is axis-coupled to the lower part of the rotation dish coupling member to be horizontally rotatable and is to be filled with a second content; an axial rotation hole formed at one side of the rotation dish; and an axial rotation part formed on the lower surface of the rotation dish coupling member and fitted in the axial rotation hole, wherein the axial rotation part and the axial rotation hole are configured to be released from or fastened to each other by the forward or backward movement of the rotation dish.

BACKGROUND

One aspect of the present disclosure relates to a compact containerhaving an improved opening/closing structure for different cosmeticmaterials and, more specifically, to a compact container having animproved opening/closing structure for different cosmetic materials, thecompact container comprising: a container body; a content containerwhich is coupled inside the container body and is to be filled with afirst content; a rotation dish coupling member coupled to the lower partof the container body; a rotation dish which is axis-coupled to thelower part of the rotation dish coupling member to be horizontallyrotatable and is to be filled with a second content; an axial rotationhole formed at one side of the rotation dish; and an axial rotation partformed on the lower surface of the rotation dish coupling member andfitted in the axial rotation hole, wherein the axial rotation part andthe axial rotation hole are configured to be released from or fastenedto each other by the forward or backward movement of the rotation dish,so as to allow the rotation dish to be rotated after the rotation dishcoupling member and the rotation dish are released from each other bypulling the rotation dish forward by a predetermined interval, and thusprevent the rotation dish from being arbitrarily rotated and opened byan external impact during the storing or carrying thereof.

In general, women do basic makeup using moisturizing skins and lotionsto protect their facial skin, and then color makeup using various colorcosmetics.

The color cosmetics used for the color makeup cover defects in the skinand provide a makeup effect of natural skin tone.

A user selects and uses color cosmetics having a color suitable for theuser's skin color, the design and color of the clothes of the user, anda place to go, and the color cosmetics are mainly applied to the skin bya cosmetic tool such as a puff.

Such color cosmetics are used while being contained in a color cosmeticcontainer. The cosmetic container include a container body, a containerlid, a content container mounted inside the container body andhinge-coupled with a content container lid at one side, and a puff keptin the content container lid.

However, since the conventional cosmetic container has only one contentcontainer inside the container body, it is necessary to purchase andcarry a separate cosmetic container to use cosmetics having variouscolors and functions, so that it gives the user an economic burden, andit is also inconvenient to carry.

To solve the above problems, as shown in FIG. 1 , there is disclosed acompact container having a stacked structure in Korean Unexamined PatentPublication No. 10-2017-0078280, which includes a first containerprovided with a content storage part to store contents, a secondcontainer having the same shape and size as the first container, stackedon an upper portion of the first container, and having a storage groovein which a content application member is contained, and a coverhinge-coupled to one side of the second container to be rotatable up anddown, wherein the content storage part of the first container in which abottom surface of the second container is located below is opened andclosed as the second container is rotated.

However, according to the related art, since the first container and thesecond container are simply rotated to be opened and closed, whenkeeping or carrying the compact container, the first container isarbitrarily rotated even by an external impact or small force, so thatthe contents contained the second container are exposed to an outside,and thus, the contents may be contaminated by external foreignsubstances.

In addition, according to the related art, after rotating the firstcontainer or the second container, when using while rubbing the contentscontained in the second container, the second container is rotated whileshaking, which is inconvenient in use.

In addition, according to the related art, the first container isrotatably coupled to the lower portion of the second container, and aplurality of contents are stored in the first container, so that whenvolatile contents are stored in the first container, the sealing forceis poor.

SUMMARY

To solve the problems described above, an object of the presentdisclosure is to provide a compact container having an improvedopening/closing structure for different cosmetic materials, whichincludes a container body; a content container which is coupled insidethe container body and is to be filled with a first content; a rotationdish coupling member coupled to the lower part of the container body; arotation dish which is axis-coupled to the lower part of the rotationdish coupling member to be horizontally rotatable and is to be filledwith a second content; an axial rotation hole formed at one side of therotation dish; and an axial rotation part formed on the lower surface ofthe rotation dish coupling member and fitted in the axial rotation hole,wherein the axial rotation part and the axial rotation hole areconfigured to be released from or fastened to each other by the forwardor backward movement of the rotation dish, so as to allow the rotationdish to be rotated after the rotation dish coupling member and therotation dish are released from each other by pulling the rotation dishforward by a predetermined interval, and thus prevent the rotation dishfrom being arbitrarily rotated and opened by an external impact duringthe storing or carrying thereof.

In addition, another object of the present disclosure is to provide acompact container having an improved opening/closing structure fordifferent cosmetic materials, which has a structure in which a contentcontainer coupled to the inside of a container body is opened bysequentially opening a container lid and a content container lid, and arotation dish axially coupled to a lower portion of a rotation dishcoupling member is pulled forward for a certain section and then rotatedto the side to be open, so that the different contents contained in thecontent container and the rotation dish may be selectively exposed to anoutside to be used or may be used by exposing them to the outside at thesame time.

In addition, still another object of the present disclosure is toprovide a compact container having an improved opening/closing structurefor different cosmetic materials, in which a locking groove is formedadjacent to an axial coupling part of the rotation dish coupling member,and a locking protrusion is formed adjacent to an axial coupling grooveof the rotation dish to insert the locking protrusion into the lockinggroove, so that, when the rotation dish is rotated, the lockingprotrusion of the rotation dish is fitted into the locking groove of thecontainer body at a predetermined rotation angle, thereby adjusting therotation angle and improving the rotation feel.

In addition, still another object of the present disclosure is toprovide a compact container having an improved opening/closing structurefor different cosmetic materials, in which a forward/backward movementgroove into which a locking protrusion of the rotation dish is insertedis formed on both sides of the axial coupling part of the rotation dishcoupling member and a front stopper protrusion and a rear stopperprotrusion are formed in the forward/backward moveable groove to preventthe locking protrusion from being unintentionally moved forward andbackward in the forward/backward movement groove, so that the containermay be stably carried or used.

According to one aspect of the present disclosure, there is provided acompact container having an improved opening/closing structure fordifferent cosmetic materials, which includes:

a container body provided on one side thereof with a container body lid;

a content container coupled inside the container body to contain a firstcontent therein and provided at one side thereof with a contentcontainer lid;

a rotation dish coupling member coupled to a lower portion of thecontainer body and formed with an axial rotation part;

a rotation dish coupled to a lower portion of the rotation dish couplingmember to be horizontally rotatable and to contain a second content, andformed with an axial rotation hole; and

a rotation shaft coupled to the axial rotation part of the rotation dishcoupling member by passing through the axial rotation hole of therotation dish, wherein a rotation of the rotation dish is allowed orrestricted as the axial rotation part of the rotation dish couplingmember and the axial rotation hole of the rotation dish are releasedfrom each other or fastened to each other by a forward or backwardmovement of the rotation dish.

In addition, the axial rotation part of the rotation dish couplingmember may include a fastening part protruding to one side and a curvedrotation part formed on an opposite side of the fastening part, and theaxial rotation hole of the rotation dish includes a fastening grooveinto which the fastening part is inserted and a rotation groove formedopposite to the fastening groove.

In addition, the compact container may further include a locking grooveformed adjacent to the axial rotation part of the rotation dish couplingmember, and a locking protrusion formed adjacent to the axial rotationhole of the rotation dish, wherein the locking protrusion is insertedinto the locking groove.

In addition, the compact container may further include aforward/backward movement groove formed on both sides of the axialrotation part of the rotation dish coupling member, and a lockingprotrusion formed adjacent to the axial rotation hole of the rotationdish, wherein the locking protrusion is inserted into theforward/backward movement groove.

In addition, the compact container may further include a curved elasticslit formed adjacent to the locking protrusion of the rotation dish suchthat the locking protrusion is elastically moved up and down.

In addition, the compact container may further include a front stopperprotrusion and a rear stopper protrusion formed in the forward/backwardmovement groove to limit forward and backward movements of the rotationdish.

In addition, the compact container may further include a separationpreventing member for the rotation shaft, which is inserted into acenter of the rotation shaft to prevent the rotation shaft from beingseparated from the rotation dish coupling member while being shrunkinward.

In addition, the compact container may further include a lower platecoupled to the lower portion of the rotation dish.

In addition, the lower plate and the rotation shaft may be integrallyformed.

In addition, the axial rotation part formed in the rotation dishcoupling member may be released from the axial rotation hole formed inthe rotation dish by pulling the rotation dish forward and a secondcontent may be exposed to an outside by horizontally rotating therotation dish.

According to the compact container having an improved opening/closingstructure for different cosmetic materials of the present disclosure,the content container is coupled inside the container body and is to befilled with the first content, the rotation dish coupling member iscoupled to the lower part of the container body; the rotation dish isaxis-coupled to the lower portion of the rotation dish coupling memberto be horizontally rotatable and is to be filled with the secondcontent, the axial rotation hole is formed at one side of the rotationdish, and the axial rotation part is formed on the lower surface of therotation dish coupling member and fitted in the axial rotation hole,wherein the axial rotation part and the axial rotation hole areconfigured to be released from or fastened to each other by the forwardor backward movement of the rotation dish, so as to allow the rotationdish to be rotated after the rotation dish coupling member and therotation dish are released from each other by pulling the rotation dishforward by a predetermined interval, and thus prevent the rotation dishfrom being arbitrarily rotated and opened by an external impact duringthe storing or carrying thereof.

In addition, according to the compact container having an improvedopening/closing structure for different cosmetic materials of thepresent disclosure, the content container coupled to the inside of acontainer body is opened by sequentially opening a container lid and acontent container lid, and the rotation dish axially coupled to a lowerportion of a rotation dish coupling member is pulled forward for acertain section and then rotated to the side to be open, so that thedifferent contents contained in the content container and the rotationdish may be selectively exposed to an outside to be used or may be usedby exposing them to the outside at the same time.

In addition, according to the compact container having an improvedopening/closing structure for different cosmetic materials of thepresent disclosure, the locking groove is formed adjacent to the axialcoupling part of the rotation dish coupling member, and the lockingprotrusion is formed adjacent to the axial coupling groove of therotation dish to insert the locking protrusion into the locking groove,so that, when the rotation dish is rotated, the locking protrusion ofthe rotation dish is fitted into the locking groove of the containerbody at a predetermined rotation angle, thereby adjusting the rotationangle and improving the rotation feel.

In addition, according to the compact container having an improvedopening/closing structure for different cosmetic materials of thepresent disclosure, the forward/backward movement groove into which alocking protrusion of the rotation dish is inserted is formed on bothsides of the axial coupling part of the rotation dish coupling memberand the front stopper protrusion and the rear stopper protrusion areformed in the forward/backward moveable groove to prevent the lockingprotrusion from being unintentionally moved forward and backward in theforward/backward movement groove, so that the container may be stablycarried or used.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing a compact container according tothe related art.

FIG. 2 is a perspective view of a compact container according to anembodiment of the present disclosure.

FIG. 3 is an exploded perspective view of a compact container accordingto an embodiment of the present disclosure.

FIG. 4 is a cross-sectional view of a compact container according to anembodiment of the present disclosure.

FIG. 5 is a cross-sectional view showing a state of pulling a rotationdish of a compact container forward according to an embodiment of thepresent disclosure.

FIG. 6 is a perspective view showing a state of horizontally rotatingthe rotary dish of a compact container according to an embodiment of thepresent disclosure.

FIG. 7 is a perspective view showing a state in which the rotation dishof a compact container according to an embodiment of the presentdisclosure is rotated horizontally at 180 degrees.

FIG. 8 is a partial perspective view of a compact container according toanother embodiment of the present disclosure.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Technical objects to be achieved by the present disclosure andembodiments of the present disclosure will be apparent throughpreferable embodiments to be described below. Hereinafter, a compactcontainer having an improved opening/closing structure for differentcosmetic materials according to an embodiment of the present disclosurewill be described with reference to accompanying drawings.

FIG. 2 is a perspective view of a compact container according to anembodiment of the present disclosure. FIG. 3 is an exploded perspectiveview of a compact container according to an embodiment of the presentdisclosure. FIG. 4 is a cross-sectional view of a compact containeraccording to an embodiment of the present disclosure.

A compact container having an improved opening/closing structure fordifferent cosmetic materials according to an embodiment of the presentdisclosure includes a container body 10 formed with an axial rotationpart 32, a container body lid 15 for opening/closing the container body10, a content container 20 coupled inside the container body lid 15 tocontain a first content, a content container lid 40 for opening/closingthe content container 30, a rotation dish 40 axially coupled to a lowerportion of the container body 10 to be horizontally rotatable and tocontain a second content and formed with an axial rotation hole 52, anda rotation shaft 50 coupled to an axial rotation part 32 of thecontainer body 10 while passing through the axial rotation hole 52.

As shown in FIG. 3 , the container body 10 has an open upper portion anda lower portion, and is coupled to the container body lid 15 at theinside thereof to be opened and closed by the rotation of the containerbody lid 15.

A button 12 is formed on a front surface of the container body 10, andformed with a first locking hook 122 which is retracted by a user'spressing operation.

A hinge insertion groove 13 into which a hinge coupling portion of thecontent container 20 and the content container lid 25 is inserted isformed on one side of the upper portion of the container body 10.

The container body lid 15 is coupled to one side of the container body10 to open and close the container body 10 as shown in FIG. 2 . In thedrawings of the compact container according to one aspect of the presentdisclosure, the container body lid 15 is hinged to the container body 10to open and close the container body 10 through rotation, but theembodiment is not limited thereto, and the container body lid 15 mayopen and close the container body 10 in various schemes such as undercutcoupling, screw coupling, or the like.

As shown in FIG. 4 , a second locking hook 152, which has a protrusionshape and is fastened to the first locking hook 122 of the containerbody 10, is formed on one side of the container body lid 15.

In addition, a mirror 154 may be formed on an inner side surface of thecontainer body lid 15 such that the user can easily apply makeup whileilluminating the makeup area.

The content container 20 is coupled to the inside of the container body10, and the first contents C1 are contained therein. The first contentC1 is preferably a gel-type cosmetic material or an impregnation memberimpregnated with a gel-type cosmetic material.

The content container 20 includes a bottom surface 21, an inner wall 22extending upward from the bottom surface 21, and an outer wall 23 spacedapart from the inner wall 22 toward an outside by a predeterminedinterval and extending upward. When an impregnation member is embeddedin the content container 20, a fixing member 24 may be further coupledto the inner wall 22 to prevent separation of the impregnation member.

The content container lid 25 for opening and closing the contentcontainer 20 is hinge coupled to one side of the content container 20.When the content container 20 is coupled to the inside of the containerbody 10, the hinge coupling portion is inserted into the hinge insertiongroove 13 formed at one side of the container body 10.

A lid handle 252 protrudes outward on the opposite side of the hingecoupling portion of the content container lid 25 such that the user caneasily grip the content container lid 25, and a puff keeping space 254capable of keeping a cosmetic tool such as a puff is formed in an upperportion of the content container lid 25.

In addition, a sealing protrusion wheel 256 is formed in the lowerportion of the content container lid 25. While the sealing protrusionwheel 256 is forcibly fitted to an inner periphery of the outer wall 23of the content container 20, the content container 20 is sealed.

The rotation dish coupling member 30 is fixedly coupled to the lowerportion of the container body 10.

As shown in FIG. 3 , a coupling position guide part 31 is formed on anupper inner periphery of the rotation dish coupling member 30 and isinserted into a coupling position guide groove 11 formed inside thecontainer body 10.

An axial rotation part 32 inserted into an axial rotation hole 42 of therotation dish 40 is formed on the lower surface of the rotation dishcoupling member 30. The axial rotation part 32 includes a fastening part322 protruding to one side and a curved rotation part 324 formed at theopposite side of the fastening part 322.

A coupling hole 33 into which the rotation shaft 50 is inserted isformed in the center of the axial rotation part 32, and a first lockingprotrusion wheel 333 coupled to the rotation shaft 50 is formed on theinner periphery of the coupling hole 33.

A locking groove 34 is formed adjacent to the axial rotation part 32,and the locking groove 34 is fitted with a locking protrusion 44 of therotation dish 40. It is preferable that the locking groove 34 is formedin plural and located around the axial rotation part 32.

In addition, there is a forward/backward movement groove 36 formed onboth sides of the axial rotation part 32, and the locking protrusion 44of the rotary dish 40 is inserted into the forward/backward movementgroove 36 to guide the forward and backward movements of the rotationdish 40. Therefore, preferably, the forward/backward movement groove 36is longitudinally formed in the longitudinal direction of an axis ‘x’connecting the axial rotation part 32 from the center of the rotationdish coupling member 30.

A front stopper protrusion 362 and a rear stopper protrusion 364 areformed inside the forward/backward movement groove 36 so that thelocking protrusion 44 of the rotation dish 40 is restricted fromunintentionally moving forward and backward in the forward/backwardmovement groove 36 of the rotation dish coupling member 30.

In addition, a first fixing protrusion 37 is formed on an outerperiphery of the rotation dish coupling member 30 as shown in FIG. 3 .

The rotation dish 40 is axially coupled to the bottom portion of thecontainer body 10 to be horizontally rotatable, as shown in FIG. 4 .

The second content C2 is contained in the upper portion of the rotationdish 40, and the second content C2 is preferably a powder or solid typecosmetic material. In addition, as shown in FIG. 3 , a pallet 48 formixing the first and second contents C1 and C2 may be formed adjacent tothe second contents C2 filled in the rotation dish 40.

An axial rotation hole 42 into which the axial rotation part 32 of therotation dish coupling member 30 is inserted is formed at one side ofthe rotation dish 40, and the axial rotation hole 42 includes afastening groove 422 into which a coupling portion 322 of the axialrotation part 32, and a rotation groove 424 formed at an opposite sideof the fastening groove 422. The axial rotation hole 42 is preferablyformed longer than the axial rotation part 32 in the longitudinaldirection of the axis ‘x’ connecting the axial rotation part 32 from thecenter of the rotation dish coupling member 30. Thus, as the axialrotation part 32 moves forward or backward, the position of the axialrotation part 32 is changed in the direction of the fastening groove 422or the rotation groove 424 inside the axial rotation hole 42.

A locking protrusion 44 is formed adjacent to the axial rotation hole 42of the rotation dish 40, and the locking protrusion 44 is fitted intothe groove 34 and the front and rear moving groove 36 of the rotationdish coupling member 30 when the rotation dish 40 is rotated.

As shown in FIG. 3 , a curved elastic slit 46 is formed adjacent to thelocking protrusion 44 of the rotation dish 40. The curved elastic slit46, which is a gap having a curved shape surrounding a portion of thelocking protrusion 44 from the outside of the locking protrusion 44,allows the locking protrusion 44 to be fitted into the locking groove 34and the forward/backward moveable groove 36 of the rotation dishcoupling member 30 while elastically moving up and down when therotation dish 40 is rotated.

In addition, a first fixing groove 47 and a second fixing groove 49 areformed on the outer periphery of the rotation dish 40. The first fixinggroove 47 of the rotation dish coupling member 30 is inserted into thefirst fixing groove 47, and a second fixing protrusion 79 of a lowerplate 70 is inserted into the second fixing groove 49. Accordingly, thelower plate 70 does not spin on the rotation dish 40 with no tractiondoes not rotate. In addition, before the rotation dish 40 is movedforward, the rotation plate 40 may be prevented from being rotated onthe rotation dish coupling member 30 by the fastening of the firstfixing groove 47 and the first fixing protrusion 37, and the rotatingdish 40 may be rotated only after the rotating dish 40 is moved forwardand the fastening of the first fixing groove 47 and the first fixingprotrusion 37 is released.

A pallet 48 for mixing the first and second contents may be formed onthe rotation dish 40. The pallet 48 is preferably formed adjacent to thesecond content (C2) for ease of use.

FIG. 8 is a partial perspective view of a compact container according toanother embodiment of the present disclosure.

As shown in FIG. 4 , the rotation shaft 50 passes through the axialrotation hole 42 of the rotation dish 40 and is coupled to the couplinghole 33 of the rotation dish coupling member 30. The rotating shaft 50serves as a shaft through which the rotation dish 40 is rotated.

A second locking protrusion wheel 53 is formed on the upper outerperiphery of the rotation shaft 50 to be undercut coupled to the firstlocking protrusion wheel 333 of the rotation dish coupling member 30.

The outer periphery of the rotation shaft 50 is formed with an elasticslit 56 in the form of a gap cut vertically. The elastic slit 56 iseasily inserted into the coupling hole 33 of the rotation dish couplingmember 30 while the rotation shaft 50 shrinks elastically inward whenthe rotation shaft 50 and the rotation dish coupling member 30 arecoupled.

In addition, a separation preventing member 60 is fitted in the centerof the rotation shaft 50, and the separation preventing member 60prevents the rotation shaft 50 from being shrunk inward, so that therotation shaft 50 is prevented from being separated from the containerbody 10.

The lower plate 70 is fixedly coupled to the lower portion of therotation dish 40 and rotates horizontally together with the rotationdish 40. A second fixing protrusion 79 is formed on the outer peripheryof the lower plate 70 and is inserted into the second fixing groove 49of the rotation dish 40.

As shown in FIG. 3 , the rotation shaft 50 may be coupled between therotation dish 40 and the lower plate 70, and as shown in FIG. 8 , therotation shaft 50 may be integrated with the lower plate 70.

Hereinafter, a method of assembling the compact container having animproved opening/closing structure for different cosmetic materialsconfigured as described above will be described.

In order to assemble the compact container according to one aspect ofthe present disclosure, the container body lid 15 is hinge-coupled toone side of the container body 10 as shown in FIGS. 3 and 4 .

Next, the first content C1 is filled in the content container 20, andafter the content container lid 25 is hinge-coupled to one side of thecontent container 20, the content container 20 is coupled to the centralinside of the container body 10.

Next, the rotation dish coupling member 30 is fixedly coupled to thelower side of the container body 10, and the coupling position guideportion 31 of the rotation dish coupling member 30 is inserted into thecoupling position guide groove 11 of the container body 10.

Next, the rotation dish 40 is axially coupled to the lower portion ofthe rotation dish coupling member 30 to be horizontally rotatable.First, the second content C2 is filled on the upper surface of therotation dish 40, and After the axial rotation part 32 of the rotationdish coupling member 30 passes through the axial rotation hole 42 of therotation dish 40, the rotation shaft 50 is coupled to the coupling hole33 of the axial rotation part 32 passing through the axial rotation hole42. In this case, since the rotation shaft 50 is formed with the elasticslit 56, while being elastically shrunk inward, the rotation shaft 50 isinserted into and coupled to the coupling hole 33 of the rotation dishcoupling member 30.

Next, the lower plate 80 is coupled to the lower side of the rotationdish 40. The first fixing protrusion 37 of the rotation dish couplingmember 30 is inserted into the first fixing groove 47 of the rotationdish 40, and the second fixing protrusion 79 of the lower plate 70 isinserted into the second fixing groove 49 of the rotation dish 40.

Lastly, by rotating the container body lid 15 hinge-coupled to one sideof the container body 10 to close the container body 10, the assembly ofthe compact container having an improved opening/closing structure fordifferent cosmetic materials according to one aspect of the presentdisclosure is completed.

A method of using a compact container having an improved opening/closingstructure for different cosmetic materials assembled in the above mannerwill be described with reference to the drawings.

FIG. 5 is a cross-sectional view showing a state of pulling a rotationdish of a compact container forward according to an embodiment of thepresent disclosure. FIG. 6 is a perspective view showing a state ofhorizontally rotating the rotary dish of a compact container accordingto an embodiment of the present disclosure. FIG. 7 is a perspective viewshowing a state in which the rotation dish of a compact containeraccording to an embodiment of the present disclosure is rotatedhorizontally at 180 degrees.

In order to use the compact container according to the presentdisclosure, the button 12 formed on one side of the container body 10 isfirst pressed to release the fastening of the container body 10 and thecontainer body lid 15, and the container body lid 15 is rotated to openthe container body 10 as shown in FIG. 2 .

Thereafter, the puff kept in the puff keeping space 254 of the contentcontainer lid 25 is grasped, and the first content C1 contained in thecontent container 20 is exposed to the outside by lifting the contentcontainer lid 25. Then, the first content C1 is stuck with the puff andapplied to the skin.

Thereafter, when applying the second content C2 contained in therotation dish 40 to the skin, or mixing the first and second contents C1and C2 to apply the mixture to the skin, the rotation dish 40 is pulledforward, thereby unfastening the axial rotation part 32 formed in therotation dish coupling member 30 and the axial rotation hole 42 formedin the rotation dish 40. Then, after the second content C2 is exposed tothe outside by rotating the rotation dish 40 horizontally, the secondcontent C2 is applied to the skin or mixed with the first content (C1)to be applied to the skin.

Looking in detail at the open structure of the rotation dish 40 asdescribed above, first, as shown in FIG. 5 , the user pulls the rotationdish 40 from the rotation dish coupling member 30 forward by apredetermined section.

When the rotation dish 40 is pulled as described above, the fasteningportion 322 of the axial rotation part 32 inserted into the fasteninggroove 422 of the axial rotation hole 42 is released from the fasteninggroove 422 while moving forward, and as the rotation part 324 of theaxial rotation part 32 is continuously inserted into the rotation groove424 of the axial rotation hole 42, the rotation plate 40 is rotatable.

In this case, as shown in the partially enlarged part of FIG. 5 , whilethe locking protrusion 44 of the rotation dish 40 moves within theforward/backward movement groove 36 of the rotation dish coupling member30, the locking protrusion 44 moves sequentially over the rear stopperprotrusion 364 and the front stopper protrusion 362 to be rotatablypositioned, so that the rotation dish 40 does not move forward orbackward arbitrarily unless the user intentionally pushes the rotationdish 40 backward.

Thereafter, as shown in FIG. 6 , when the rotation dish 40 is rotated inany one direction, the rotation dish 40 is rotated from the rotationdish coupling member 30. In this case, the locking protrusion 44 of therotation dish 40 is resiliently moved up and down by the curved elasticslit 46, and as shown in the partially enlarged portion of FIG. 6 , isreleased from the forward/backward movement groove 36 of the rotationdish coupling member 30 to be elastically inserted into the adjacentlocking groove 34.

Thereafter, when the rotation dish 40 is further rotated, while beingelastically moved up and down by the curved elastic slit 46, the lockingprotrusion 44 of the rotation dish 40 is sequentially inserted into thelocking grooves 34 located in the rotation direction of the rotationdish 40. Therefore, it is possible to adjust the rotation angle of therotation dish 40 to be constant, and it is possible to transfer moreimproved rotational feeling to the user.

Thereafter, as shown in FIG. 7 , when the rotation dish 40 is rotated at180 degrees, the second content C2 filled in the rotation dish 40 iscompletely exposed to the outside. In this case, the locking protrusion44 of the rotation dish 40 is elastically inserted into theforward/backward movement groove 36, as shown in the partial enlargedportion of FIG. 7 .

After the makeup is finished, the rotation dish 40 is rotated in theopposite direction to close, and the content container lid 25 and thecontainer body lid 15 are sequentially closed, so that the use of thecompact container having an improved opening/closing structure fordifferent cosmetic materials according to one aspect of the presentdisclosure is completed.

As described above, the compact container having an improvedopening/closing structure for different cosmetic materials described inthis disclosure is an illustrative purpose only, and the presentdisclosure is not limited thereto. Thus, it should be understood thatnumerous other modifications and embodiments can be devised by thoseskilled in the art within the spirit and scope of the present disclosureand they will fall within the scope of the present disclosure.

What is claimed is:
 1. A compact container having an improved openingand closing structure for different cosmetic materials, the compactcontainer comprising: a container body__provided on one side thereofwith a container body lid; a content container coupled inside thecontainer body to contain a first content therein and provided at oneside thereof with a content container lid; a rotation dish couplingmember coupled to a lower portion of the container body and formed withan axial rotation part; a rotation dish coupled to a lower portion ofthe rotation dish coupling member to be horizontally rotatable and tocontain a second content, and formed with an axial rotation hole; and arotation shaft coupled to the axial rotation part of the rotation dishcoupling member by passing through the axial rotation hole of therotation dish, wherein a rotation of the rotation dish is allowed orrestricted as the axial rotation part of the rotation dish couplingmember and the axial rotation hole of the rotation dish are releasedfrom each other or fastened to each other by a forward or backwardmovement of the rotation dish.
 2. The compact container of claim 1,wherein the axial rotation part of the rotation dish coupling memberincludes a fastening part protruding to one side and a curved rotationpart formed on an opposite side of the fastening part, and the axialrotation hole of the rotation dish includes a fastening groove intowhich the fastening part is inserted and a rotation groove formedopposite to the fastening groove.
 3. The compact container of claim 1,further comprising: a locking groove formed adjacent to the axialrotation part of the rotation dish coupling member, and a lockingprotrusion formed adjacent to the axial rotation hole of the rotationdish, wherein the locking protrusion is inserted into the lockinggroove.
 4. The compact container of claim 3, further comprising: acurved elastic slit formed adjacent to the locking protrusion of therotation dish such that the locking protrusion is elastically moved upand down.
 5. The compact container of claim 1, further comprising: aforward and backward movement groove formed on both sides of the axialrotation part of the rotation dish coupling member, and a lockingprotrusion formed adjacent to the axial rotation hole of the rotationdish, wherein the locking protrusion is inserted into the forward andbackward movement groove.
 6. The compact container of claim 5, furthercomprising: a curved elastic slit formed adjacent to the lockingprotrusion of the rotation dish such that the locking protrusion iselastically moved up and down.
 7. The compact container of claim 5,further comprising: a front stopper protrusion and a rear stopperprotrusion formed in the forward and backward movement groove to limitforward and backward movements of the rotation dish.
 8. The compactcontainer of claim 1, further comprising: a separation preventing memberfor the rotation shaft, which is inserted into a center of the rotationshaft to prevent the rotation shaft from being separated from therotation dish coupling member while being shrunk inward.
 9. The compactcontainer of claim 1, further comprising: a lower plate coupled to thelower portion of the rotation dish.
 10. The compact container of claim9, wherein the lower plate and the rotation shaft are integrally formed.11. The compact container of claim 1, wherein the axial rotation partformed in the rotation dish coupling member is released from the axialrotation hole formed in the rotation dish by pulling the rotation dishforward and a second content is exposed to an outside by horizontallyrotating the rotation dish.